| Alternative title | HISN-1 : Matériau de référence certifié d'étain de pureté élevée pour la fraction massique de l'étain et les impuretés élémentaires |
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| DOI | Resolve DOI: https://doi.org/10.4224/crm.2025.hisn-1 |
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| Author | Search for: Mihai, Ovidiu1; Search for: Methven, Brad1; Search for: Brophy, Christine1; Search for: Yang, Lu1ORCID identifier: https://orcid.org/0000-0002-4351-2503; Search for: Nadeau, Kenny1; Search for: Grinberg, Patricia1ORCID identifier: https://orcid.org/0000-0002-1167-6474; Search for: Meija, Juris1ORCID identifier: https://orcid.org/0000-0002-3349-5535; Search for: Mester, Zoltan1ORCID identifier: https://orcid.org/0000-0002-2377-2615 |
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| Affiliation | - National Research Council of Canada
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| Format | 3D, Material |
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| Material type | High-purity material |
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| Subject | Canadian reference material; HISN-1; tin; elemental impurities |
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| Abstract | HISN-1 is a high purity tin Certified Reference Material (CRM). A unit of HISN-1 consists of approximately 1 g of high purity tin. This material is intended as a primary standard for the determination of mass fraction of tin. |
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| Analytes | View analytes| Analyte | Quantity | Value | Expanded uncertainty | Unit | Type |
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| tin | mass fraction | 0.999985 | 0.000005 | kg/kg | certified | | lithium | mass fraction | <0.2 | 0.2 | µg/kg | certified | | beryllium | mass fraction | <0.14 | 0.07 | µg/kg | certified | | boron | mass fraction | <0.3 | 0.2 | µg/kg | certified | | carbon | mass fraction | 300 | 2700 | µg/kg | certified | | nitrogen | mass fraction | 3 | 33 | µg/kg | certified | | oxygen | mass fraction | 30 | 310 | µg/kg | certified | | fluorine | mass fraction | <0.4 | 1.4 | µg/kg | certified | | sodium | mass fraction | <0.3 | 0.2 | µg/kg | certified | | magnesium | mass fraction | <0.3 | 0.2 | µg/kg | certified | | aluminium | mass fraction | 1 | 6 | µg/kg | certified | | silicon | mass fraction | <0.5 | 0.2 | µg/kg | certified | | phosphorus | mass fraction | <0.3 | 0.5 | µg/kg | certified | | sulfur | mass fraction | 2100 | 1300 | µg/kg | certified | | chlorine | mass fraction | <1 | 3 | µg/kg | certified | | potassium | mass fraction | <55 | 60 | µg/kg | certified | | calcium | mass fraction | <3 | 2 | µg/kg | certified | | scandium | mass fraction | <0.1 | 0.1 | µg/kg | certified | | titanium | mass fraction | <0.08 | 0.04 | µg/kg | certified | | vanadium | mass fraction | <0.1 | 9 | µg/kg | certified | | chromium | mass fraction | <0.2 | 0.1 | µg/kg | certified | | manganese | mass fraction | <0.2 | 0.1 | µg/kg | certified | | iron | mass fraction | 510 | 150 | µg/kg | certified | | cobalt | mass fraction | <330 | 530 | µg/kg | certified | | nickel | mass fraction | <1100 | 1300 | µg/kg | certified | | copper | mass fraction | 160 | 360 | µg/kg | certified | | zinc | mass fraction | 1 | 161 | µg/kg | certified | | gallium | mass fraction | <0.9 | 0.4 | µg/kg | certified | | germanium | mass fraction | <5 | 4 | µg/kg | certified | | arsenic | mass fraction | 1 | 2 | µg/kg | certified | | selenium | mass fraction | <770 | 540 | µg/kg | certified | | bromine | mass fraction | <900 | 2200 | µg/kg | certified | | rubidium | mass fraction | <0.3 | 0.4 | µg/kg | certified | | strontium | mass fraction | <0.11 | 0.08 | µg/kg | certified | | yttrium | mass fraction | <0.14 | 0.2 | µg/kg | certified | | zirconium | mass fraction | <0.17 | 0.13 | µg/kg | certified | | niobium | mass fraction | <0.2 | 0.2 | µg/kg | certified | | molybdenum | mass fraction | <3 | 1 | µg/kg | certified | | ruthenium | mass fraction | <1 | 5 | µg/kg | certified | | rhodium | mass fraction | <2 | 3 | µg/kg | certified | | palladium | mass fraction | <1 | 5 | µg/kg | certified | | silver | mass fraction | 790 | 240 | µg/kg | certified | | cadmium | mass fraction | <80 | 40 | µg/kg | certified | | indium | mass fraction | <900 | 400 | µg/kg | certified | | antimony | mass fraction | <1900 | 1000 | µg/kg | certified | | tellurium | mass fraction | <5 | 3 | µg/kg | certified | | iodine | mass fraction | <10 | 20 | µg/kg | certified | | caesium | mass fraction | <2 | 3 | µg/kg | certified | | barium | mass fraction | <20 | 30 | µg/kg | certified | | lanthanum | mass fraction | <4 | 3 | µg/kg | certified | | cerium | mass fraction | <3 | 5 | µg/kg | certified | | praseodymium | mass fraction | <1 | 3 | µg/kg | certified | | neodymium | mass fraction | <0.4 | 0.4 | µg/kg | certified | | samarium | mass fraction | <0.4 | 1.1 | µg/kg | certified | | europium | mass fraction | <0.2 | 0.5 | µg/kg | certified | | gadolinium | mass fraction | <4 | 10 | µg/kg | certified | | terbium | mass fraction | <20 | 60 | µg/kg | certified | | dysprosium | mass fraction | <1 | 2 | µg/kg | certified | | holmium | mass fraction | <0.1 | 0.3 | µg/kg | certified | | erbium | mass fraction | <0.2 | 0.6 | µg/kg | certified | | thulium | mass fraction | <0.1 | 0.2 | µg/kg | certified | | ytterbium | mass fraction | <0.2 | 0.5 | µg/kg | certified | | lutetium | mass fraction | <0.1 | 0.2 | µg/kg | certified | | hafnium | mass fraction | <0.4 | 0.4 | µg/kg | certified | | tantalum | mass fraction | <550 | 600 | µg/kg | certified | | tungsten | mass fraction | <0.6 | 0.4 | µg/kg | certified | | rhenium | mass fraction | <0.6 | 0.8 | µg/kg | certified | | osmium | mass fraction | <2 | 3 | µg/kg | certified | | iridium | mass fraction | <1 | 1 | µg/kg | certified | | platinum | mass fraction | <1 | 1 | µg/kg | certified | | gold | mass fraction | <50 | 20 | µg/kg | certified | | mercury | mass fraction | <7 | 5 | µg/kg | certified | | thallium | mass fraction | <2 | 1 | µg/kg | certified | | lead | mass fraction | 7300 | 2200 | µg/kg | certified | | bismuth | mass fraction | 11 | 3 | µg/kg | certified | | thorium | mass fraction | <2 | 2 | µg/kg | certified | | uranium | mass fraction | <10 | 14 | µg/kg | certified |
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| Publication date | 2025-05-01 |
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| Publisher | National Research Council of Canada |
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| Copyright statement | - © 2025
National Research Council of Canada
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| Access condition | |
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| References | View items (3)- Meija, Juris, Brad Methven, and Ralph E Sturgeon. ‘Uncertainty of Relative Sensitivity Factors in Glow Discharge Mass Spectrometry’. Metrologia 54, no. 5 (15 September 2017): 796–804. https://doi.org/10.1088/1681-7575/aa83d6.
- Sturgeon, R E, B Methven, S N Willie, and P Grinberg. ‘Assignment of Purity to Primary Metal Calibrants Using Pin-Cell VG 9000 Glow Discharge Mass Spectrometry: A Primary Method with Direct Traceability to the SI International System of Units?’ Metrologia 51, no. 5 (25 June 2014): 410–22. https://doi.org/10.1088/0026-1394/51/5/410.
- ‘Evaluation of Measurement Data — Guide to the Expression of Uncertainty in Measurement’, 2008. https://doi.org/10.59161/jcgm100-2008e.
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| Export citation | Export as RIS |
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| Collection | Canadian Reference Materials and Methods |
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| Record identifier | 248d3cea-61cb-436c-8aac-5c2a551190ee |
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| Record created | 2025-05-22 |
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| Record modified | 2025-05-22 |
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